WO2022131606A1

WO2022131606A1 - Functional shoe insole and manufacturing method therefor

Info

Publication number: WO2022131606A1
Application number: PCT/KR2021/017453
Authority: WO
Inventors: 이시우
Original assignee: 이시우
Priority date: 2020-12-17
Filing date: 2021-11-25
Publication date: 2022-06-23
Also published as: KR102379986B1

Abstract

The present invention relates to a functional shoe insole and a manufacturing method therefor, the functional shoe insole, according to one embodiment of the present invention, comprising: a bottom part disposed on the bottom inside a shoe; a balance part comprising sheets and a plurality of pads, the plurality of sheets being segmented on the upper portion of the bottom part so as to be detachably coupled to the bottom part, and the plurality of pads each being coupled to the respective sheets and protruding so as to make contact with the sole of a foot; and a support part disposed on the upper portion of the sheets and having a plurality of through-holes formed in the inner side thereof so that the plurality of pads are each exposed through the respective through-holes.

Description

Functional shoe insole and its manufacturing method

The present invention relates to a functional shoe insole and a method for manufacturing the same, and a functional shoe insole that is formed of a plurality of modules and can be replaced by parts and a technology for manufacturing the same are disclosed.

The insole included in the shoe has been provided for the purpose of absorbing sweat and alleviating the impact on the human body when the shoe touches the ground when the user walks.

There are many acupoints on the sole of the foot of the human body, and each part of the foot is closely related to the health of the body. However, if the flat feet or the arrangement of the bones of the foot are abnormal, it is impossible to walk correctly, and the balance of the body skeleton is lost, which affects areas such as the neck, waist, and shoulder, so that pain is felt and fatigue is easily felt.

Among the prior art, Republic of Korea Utility Model Publication No. 20-0384224 (registered on May 4, 2005) is formed to correspond to the shape of the sole of the foot except for the toe, and a body made of a thin plate as a whole, and the front of the body It is formed in the arch surface, and the curved surface curved in the longitudinal direction of the sole is formed upward so that the arch shape is artificially induced in the sole; At this time, a support part is formed on the outer peripheral surface except for the front outer peripheral surface of the main body to prevent the foot from being separated, while a plurality of vent holes penetrating upward and downward are formed on the surface of the arch surface, the lower end of the vent hole is the bottom surface of the main body It is a technical feature to provide a shoe insole for foot correction that is located on one side of a plurality of cushion grooves formed in a waffle-shaped structure to communicate with each other.

However, the prior art simply supports only the arch surface of the sole, and it is difficult to prevent ankle distortion by only forming a plurality of ventilation holes. In addition, as the number of times of use increases, the elastic force decreases, and the effect of correcting the foot falls, and eventually the entire insole needs to be replaced.

The technical problem to be solved by the present invention is to provide a functional shoe insole capable of preventing sagging of the arch of the sole and preventing distortion of the ankle by supporting each part of the sole in a balanced way.

In addition, it is to provide a functional shoe insole that can be replaced for each part of the sole and can be changed according to the size of the user's foot and the height of the arch.

In addition, it is to provide a functional shoe insole that can be customized by collecting the distribution of pressure applied to the sole according to the user's movement information.

Another object of the present invention is to provide a method of manufacturing a functional shoe insole capable of manufacturing an optimal functional shoe insole using the shape of the user's sole.

A functional shoe insole according to an embodiment of the present invention includes a bottom portion disposed on the inner floor of the shoe, a seat divided into a plurality on the upper portion of the bottom portion and detachably coupled to the bottom portion, and each coupled to the seat and sole and a balancing part including a plurality of pads protruding to be in contact with the balancing part, and a support part disposed on the sheet and having a plurality of through holes formed therein to expose the plurality of pads, respectively.

In addition, the pad may further include a sensing unit for sensing the pressure of the sole, and a communication unit for transmitting information on the pressure applied to the pad to an external communication terminal.

In addition, the electrode is printed on the surface of the pad to detect a contact area with the sole, and further comprising a power supply unit formed on the pad to supply power, the balance unit when the plurality of sheets are in contact with each other may be electrically connected.

In addition, the balancing part may have an injection hole formed at one side of the pad so that when air is injected into the pad, the height of the pad may be adjusted.

On the other hand, the method of manufacturing a functional shoe insole according to another embodiment of the present invention includes the steps of creating a bottom part disposed on the inner sole of the shoe, and the bottom part is divided into a plurality and detachably coupled to the bottom part and a plurality of pads each coupled to the sheet and protruding to contact the sole of the foot, wherein a first image of the sole of the user and a second image of the side of the foot are acquired according to the pressure information. The method includes the steps of: creating a balance part by varying the height and area of the pad;

Accordingly, it is possible to prevent the arch of the sole from sagging and distortion of the ankle by supporting each part of the sole in a balanced way.

In addition, it is possible to replace each part of the sole, and it is possible to change it according to the size of the user's foot and the height of the arch.

In addition, it is possible to collect the distribution of the pressure applied to the soles of the feet according to the user's movement information so that it can be customized.

In addition, it is possible to manufacture an optimal functional shoe insole by using the shape of the user's sole.

1 is a block diagram of a functional shoe insole according to an embodiment of the present invention.

2 is an exploded view of the functional shoe insole according to FIG. 1 .

FIG. 3 is an exemplary view for explaining how to change the height by injecting air into the pad of the functional shoe insole according to FIG. 1 .

FIG. 4 is an exemplary view for explaining that an antibacterial part is additionally formed in the functional shoe insole according to FIG. 1 .

FIG. 5 is an exemplary view for explaining that a sensing unit, a communication unit, and an electrode unit are additionally formed in the functional shoe insole according to FIG. 1 .

6 is an exemplary view for explaining that a power supply unit is additionally formed in the functional shoe insole according to FIG. 1 .

7 is a flowchart of a method of manufacturing a functional shoe insole according to another embodiment of the present invention.

FIG. 8 is an exemplary view for explaining receiving image information about the shape of a foot from a user in the method of manufacturing a functional shoe insole according to FIG. 7 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of functions in the embodiment, and the meaning of the terms may vary depending on the intention or precedent of the user or operator. Therefore, the meaning of the terms used in the embodiments to be described below, when specifically defined in the present specification, follow the definition, and when there is no specific definition, it should be interpreted as a meaning generally recognized by those skilled in the art.

1 is a block diagram of a functional shoe insole according to an embodiment of the present invention, FIG. 2 is an exploded view of the functional shoe insole according to FIG. 1 , and FIG. 3 is a height by injecting air into the pad of the functional shoe insole according to FIG. It is an exemplary diagram for explaining how to change .

1 to 3 , the functional shoe insole 100 according to an embodiment of the present invention includes a bottom part 110 , a balance part 120 , and a support part 130 . The functional shoe insole 100 of the present invention is mounted as a pair on left and right shoes (not shown), and in this description, the functional shoe insole 100 mounted on either side of the shoe will be described as a reference.

The sole 110 is disposed on the inner sole of the shoe. The bottom part 110 may be formed in a thin plate shape to correspond to the inner sole of the shoe. Preferably, the bottom 110 may be formed of a flexible silicone material, but is not limited thereto, and the material may be various if it has elasticity. In this case, a plurality of protrusions 111 are protruded from the upper portion of the bottom portion 110 .

The protrusion 111 may protrude in a cylindrical shape, but the shape is not limited thereto. For example, it may protrude in various polygonal shapes, such as a quadrangle, a triangle, and a pentagon. In addition, the protrusion 111 may be formed integrally with the bottom portion 110 , but may be formed separately. That is, it may be formed to be adhesively coupled to the bottom part 110 or to be detachably coupled like a hook.

These protrusions 111 are formed to correspond to the plurality of seating holes 121-1 formed in the sheet 121 of the balance part 120 to be described later. In this case, the sheet 121 of the balance unit 120 is disposed on the top of the bottom part 110 and is detachably coupled to the bottom part 110 . At this time, the plurality of seating holes 121-1 formed in the sheet 121 are seated on the protrusions 111 of the bottom part 110 .

The balance unit 120 is located above the bottom unit 110 to distribute the load while in contact with the sole of the user's sole to maintain body balance. Specifically, the balance unit 120 includes a plurality of sheets 121 and a plurality of pads 122 . The sheet 121 is detachably coupled to the bottom 110 . The sheet 121 is disposed on the top of the bottom part 110 and divided into a plurality of pieces. Preferably, the sheet 121 may be divided into 5 equal parts for each part of the sole, but the present invention is not limited thereto, and may be divided in various ways.

In this case, the overall shape of each sheet 121 may be formed in a shape corresponding to the bottom portion 110 . A plurality of seating holes 121-1 are formed in each inner side of the sheet 121 . The seating hole 121-1 is formed to correspond to the protrusion 111 of the bottom part 110 . For example, each sheet 121 is seated on the protrusion 111 of the bottom part 110 . Preferably, the sheet 121 may be formed of a silicone material having elasticity. However, if the sheet 121 provides an elastic force, the material is not limited. For example, it may be a material such as latex or polyurethane.

A plurality of pads 122 are coupled on each sheet 121 to contact the soles of the feet. Preferably, the plurality of pads 122 are formed of a silicon material having elasticity and gently protrude. The pad 122 is coupled to the sheet 121 and serves to support the sole in a balanced manner for each part. In this case, the plurality of pads 122 may be formed to be coupled to each sheet 121 by an adhesive, but may be detachably fitted like a hook.

For example, the plurality of pads 122 may be divided into an arcuate pad, an inner pad, an outer pad, and a heel pad, but is not limited thereto. The arcuate pad supports the arch portion of the foot, that is, the portion of the foot bones forming the cuboid and metatarsal bones. The arched pad supports the inner arch of the sole, and the shape can be made to fit the shape of the sole, such as size and height. The arcuate pad protrudes upward to support the inner arch of the sole, and serves to absorb the shock applied to the foot 10 when the user walks.

The inner pad supports a portion forming a boundary between the arch of the sole and the toe, that is, a portion corresponding to the proximal phalanx among the foot bones. The proximal phalanx, also called the forefoot, is the part that touches the floor the most along with the heel when walking, and the most load is applied to it. Such an inner pad can prevent foot diseases such as corns by supplementing the work of standing for a long time or carrying the greatest load when walking for a long time.

The outer pad supports the toe of the sole of the foot, that is, a portion corresponding to the phalanx among the bones of the foot. The outer pad is formed to evenly distribute the load from the big toe to the little toe. In this case, the outer pad can evenly support even when the arrangement of the toe bones is abnormal.

The heel pad supports the heel of the sole, that is, a portion corresponding to the calcaneus among the bones of the foot. The calcaneus is the part that carries the most load, and when walking for a long time, back problems such as lumbar disc, stenosis, and separation can occur due to impact. The heel pad serves to distribute the load received from the ankle.

The plurality of pads 122 may support not only to evenly distribute the load on the sole of the foot, but also to maintain the center C without bending the ankle outward. Accordingly, it can be effective for patients with degenerative knee joint pain as well as supporting the sole of a user with an 'O'-shaped leg or an 'X'-shaped leg in a balanced way.

On the other hand, the balance unit 120 can be replaced for each part of the user's foot sole. For example, it is possible to change the pad 122 according to the portion of the sole of the foot or the user's foot size and the height of the arch. Therefore, it is economical to partially replace the functional shoe insole 100 .

In addition, the balance unit 120 may have an injection hole formed at one side of the pad 122 to inject air into the pad 122 using the air supply device 20 . In this case, when air is injected into the pad 122 , the height of the pad 122 may be adjusted. This is to allow the user to raise or lower the height of the pad 122 so that it can be worn in a comfortable state. In this case, the pad 122 may be formed in the form of an air bag so that air can be injected.

The support part 130 is disposed on the sheet 121 to support the plurality of pads 122 . Preferably, the support 130 may be formed of a silicone material having elasticity, but may be formed of a material such as a synthetic resin material or cloth. Specifically, the support 130 has a through hole 131 formed therein corresponding to the plurality of pads 122 . For example, the through hole 131 of the support unit 130 is formed to correspond to the inner pad, the outer pad, and the heel pad. In this case, open holes 132 corresponding to each one side of the arcuate pad are formed on both sides of the side surface of the support unit 130 . As described above, the through hole 131 and the open hole 132 are disposed on the sheet 121 , and the plurality of pads 122 are exposed, respectively, and support the edge of each pad 122 .

1 to 4 , the functional shoe insole 100 according to an embodiment of the present invention may further include an antibacterial unit 140 . The antibacterial part 140 may be formed to surround the outside of the plurality of pads 122 . The antibacterial unit 140 removes odors and prevents the growth of bacteria and fungi such as athlete's foot. The antibacterial unit 140 is formed inside the pad 122 and may be formed in such a way that the cleaning solution is sprayed in a form that is minutely leaked when the user touches it. This is to enable the user to wash by stimulating the antibacterial unit 140 through the foot 10 . In this case, the antibacterial part 140 may be formed on each of the plurality of pads 122 or may be formed only on some of the pads 122 .

Referring to FIG. 5 , the functional shoe insole 100 according to an embodiment of the present invention may further include a sensing unit 150 and a communication unit 160 .

The sensing unit 150 may be formed on the pad 122 to sense the pressure of the sole. In this case, the sensing unit 150 may be formed of a piezoelectric element, but is not limited thereto. In this case, at least one sensing unit 150 may be formed on each pad 122 . The sensing unit 150 may detect a position in which the user's center of gravity is distributed by sensing the pressure applied on the pad 122 . In this case, the sensing unit 150 may detect a movement and detect whether the user is in a standing state, walking state, or running state. For example, the sensing unit 150 may further include a gyro sensor and an acceleration sensor.

The sensing unit 150 transmits pressure information according to the sensed motion information to the communication unit 160 to be described later. The sensing unit 150 is converted from the sleep mode in which the movement of the pad 122 is sensed to the active mode to generate pressure information. This pressure information is used to generate the pad 122 of a more precise height and width by acquiring the pressure distribution applied to the user's foot 10 as it moves, or to guide replacement with another pad 122 . The sensing unit 150 is driven by receiving internal power.

The communication unit 160 transmits the pressure information applied to the pad 122 to the external communication terminal 30 . The communication unit 160 transmits the pressure information to the communication terminal 30 at a preset time period. In this case, the communication terminal 30 may analyze the received pressure information and transmit it to an external management server. The communication terminal 30 is preferably installed with a unique application that communicates with an external management server. The communication terminal 30 may analyze the pressure information through the application and provide the user with a sign, text, figure, and graph indicating which part of the foot his load is applied to. In addition, the external management server transmits pressure information for each user to the seller to manufacture the optimal functional shoe insole 100 .

1 to 6 , the functional shoe insole 100 according to an embodiment of the present invention may further include an electrode unit 170 and a power supply unit 180 .

The electrode unit 170 detects a contact area with the sole by printing electrodes on the surface of the pad 122 . In this case, the electrode unit 170 may be printed on the surface of the pad 122 using a conductive paste. For example, the electrode unit 170 may be formed like a spider web, but is not limited thereto. The electrode unit 170 may be formed on each of the plurality of pads 122 . When a person's sole touches the electrode unit 170 , the electrical resistance changes and the contact portion can be sensed. For example, the contact portion may be identified based on a change in which electrical resistance increases or decreases depending on whether the skin of the sole and the electrode unit 170 are in contact.

The power supply unit !80 is formed on the pad 122 to supply power. The power supply unit !80 may be implemented as a rechargeable secondary battery, but is not limited thereto. The power supply unit (!80) supplies power to the internal sensing unit 150, the communication unit 160, and the like. The power supply unit !80 may also charge the secondary battery by pressure using a piezoelectric element. This is to charge the secondary battery while pressure is applied to the power supply unit (!80) when the user moves. The power supply unit !80 may be formed to supply power when the plurality of pads 122 are in contact.

In this case, the balance unit 120 may allow the plurality of sheets 121 to be electrically connected to each other when they are in contact with each other. In this case, the electrode line 181 may be formed on the sheet 121 . These electrode lines 181 are electrically connected when the plurality of sheets 121 are in contact with each other, so that electricity from the power supply unit !80 can be supplied to the pads 122 of each sheet. In this case, it is preferable that the sheet 121 and the pad 122 are electrically connected to each other. Accordingly, various functions may be implemented in each pad 122 by electrically connecting the plurality of sheets 121 to each other.

For example, when the pad 122 is implemented as a sensor, sensing information sensed by each pad 122 may be transmitted to the outside through the communication unit 160 . When the pad 122 is composed of a heating element such as a Peltier element, it is also possible to cause each pad 122 to generate heat or absorb heat by using the electricity supplied from the power supply unit !80. However, it is not limited to this purpose, and it can be used in a modular structure by adding various functions.

7 is a flowchart of a method of manufacturing a functional shoe insole according to another embodiment of the present invention, and FIG. 8 is a method for manufacturing a functional shoe insole according to FIG. 7 to explain receiving image information about the shape of a foot from a user It is an example diagram for

7 and 8 , in the method of manufacturing a functional shoe insole according to an embodiment of the present invention, first, in step S110, a sole 110 disposed on the inner sole of the shoe is created. The bottom 110 is formed to have a certain thickness to correspond to the shape of the shoe. The bottom part 110 may be formed of a synthetic resin material or a silicon material. The bottom part 110 may be cut using a laser cutter, but is not limited thereto. In this case, when the shape information of the shoe is input, the size and shape of the bottom part 110 may be determined to correspond to the shape. A plurality of mounting holes 121-1 may be formed in the bottom portion 110 .

Next, in step S120, the balance unit 120 to be seated on the upper part of the floor is created. The balance unit 120 includes a sheet 121 and a pad 122 . The balance unit 120 forms pads 122 each protruding on the plurality of sheets 121 . In this case, the size and shape of the pad 122 may be determined by receiving a first image (a) of the user's sole and a second image (b) of the side of the foot from the user. This is to predict the pressure applied to the sole of the foot by using image information when the load applied to the foot 10 cannot be input from the user.

In addition, in step S120, it is possible to provide the functional shoe insole 100 to the user in advance, and to receive pressure information by using the sensing unit 150 installed on the pad 122 . This may be provided by sensing a change in pressure according to a user's movement using a piezoelectric element installed on the pad 122 . The pressure distribution applied to the sole can be checked using the average value of this pressure information. In this case, the communication unit 160 is formed on the pad 122 to receive pressure information at a preset time period therefrom.

In addition, in step S120 , the functional shoe insole 100 may be provided to the user in advance, and the contact area of the sole may be calculated using the electrode unit 170 formed on the outer surface of the pad 122 . Such a contact area may vary according to the user's motion information. In step S120 , if the provided functional shoe insole 100 is not suitable according to the pressure information, it is also possible to manufacture the functional shoe insole 100 including the corrected pad 122 .

Next, in step S130 , the support unit 130 disposed on the upper portion of the sheet 121 is generated. The support part 130 may be formed of a silicone or synthetic resin material. By forming a plurality of through-holes 131 in the support part 130 , it is possible to prevent the plurality of balance parts 120 from separating from each other. In step S130 , the support part 130 has a shape corresponding to the bottom part 110 . It may be formed as a , and may be coupled to the bottom portion 110 and the upper and lower portions.

In the above, the present invention has been mainly described with reference to the preferred embodiments described with reference to the drawings, but is not limited thereto. Accordingly, the present invention should be interpreted by the description of the claims intended to cover obvious modifications that can be derived from the described embodiments.

Claims

a sole portion disposed on the inner sole of the shoe;

a balance part comprising a sheet divided into a plurality on the upper part of the bottom part and detachably coupled to the bottom part, and a plurality of pads respectively coupled to the sheet and protruding to contact the soles; and

A functional shoe insole disposed on the sheet and including a support part having a plurality of through-holes formed therein so that the plurality of pads are exposed, respectively.
According to claim 1,

a sensing unit formed on the pad to sense the pressure of the sole; and

Functional shoe insole further comprising a communication unit for transmitting information on the pressure applied to the pad to an external communication terminal.
According to claim 1,

an electrode part for sensing a contact area with the sole by printing electrodes on the surface of the pad; and

It is formed on the pad further comprising a power supply for supplying power,

the balance,

A functional shoe insole that is electrically connected when a plurality of the sheets are in contact with each other.
According to claim 1,

the balance,

An injection hole is formed on one side of the pad so that when air is injected into the pad, the height of the pad is adjusted.
In the manufacturing method of a functional shoe insole,

creating a sole disposed on the inner sole of the shoe;

A sheet divided into a plurality on the upper part of the bottom part and detachably coupled to the bottom part, and a plurality of pads respectively coupled to the sheet and protruding to contact the sole of the foot, a first image of the user's sole and , generating a balance by varying the height and area of the pad according to the pressure information by acquiring a second image of the foot side; and

A method of manufacturing a functional shoe insole comprising the step of creating a support portion disposed on the sheet and having a plurality of through-holes formed therein so that the plurality of pads are exposed, respectively.